relation: https://pure.iiasa.ac.at/id/eprint/4211/
title: Meso-Scale Hydrologic Modeling for Climate Impact Assessments: A Conceptual and A Regresssion Approach
creator: Ozga-Zielinska, M.
creator: Brzezinski, J.
creator: Feluch, W.
description: The paper presents two different approaches to hydrologic modeling for Climate Impact Assessments: A conceptual water balance model and a non-parametric regression model. They both are designed for modeling large-scale river basins (Meso-Scale) at a monthly time step and to accept GCM-based climate scenarios defined as changes in monthly precipitation and temperature. The data requirements for the models are historical, multi-annual series of mean monthly temperature, precipitation, and runoff. These data are used to calibrate the models. GCM data or user-defined sensitivity of climatic variable must be provided for the assessment analyses. The paper describes the theoretical bases of both approaches and presents the results of a comparison of the application of the models to the Vistula River Basin in Poland.
publisher: CP-94-010
date: 1994-05
type: Monograph
type: NonPeerReviewed
format: text
language: en
identifier: https://pure.iiasa.ac.at/id/eprint/4211/1/CP-94-010.pdf
identifier:   Ozga-Zielinska, M., Brzezinski, J., & Feluch, W.  (1994).  Meso-Scale Hydrologic Modeling for Climate Impact Assessments: A Conceptual and A Regresssion Approach.   IIASA Collaborative Paper. IIASA, Laxenburg, Austria: CP-94-010